复合莫来石纤维前驱体结晶行为研究

doi:10.15541/jim20160618

无机材料学报 ›› 2017, Vol. 32 ›› Issue (7): 739-743.DOI: 10.15541/jim20160618

复合莫来石纤维前驱体结晶行为研究

马西飞, 林根连, 康庄, 黄晓

(中国科学院上海硅酸盐研究所, 上海200050)

收稿日期:2016-11-08 修回日期:2016-12-21 出版日期:2017-07-20 网络出版日期:2017-06-23
作者简介:马西飞(1989–), 男, 硕士，助理工程师. E-mail: maxifei@126.com
基金资助:
国家自然科学基金(51302289);上海市自然科学基金(13ZR1445800)

Crystallization Behavior of Hybrid Mullite Fiber Precursors

MA Xi-Fei, LIN Gen-Lian, KANG Zhuang, HUANG Xiao

(Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, China)

Received:2016-11-08 Revised:2016-12-21 Published:2017-07-20 Online:2017-06-23
About author:MA Xi-Fei. E-mail: maxifei@126.com
Supported by:
National Natural Science Foundation of China(51302289);National Science Foundation of Shanghai(13ZR1445800)

摘要/Abstract

摘要：

无玻璃相微晶结构是莫来石纤维获得良好高温力学性能的关键, 采用单/双相莫来石复合前驱体可在不添加玻璃相物质前提下, 调控莫来石纤维结晶结构。在复合前驱体中, 单相莫来石组分在~980℃原位生成的莫来石晶粒可作为晶核, 诱导双相莫来石组分在较低的温度下形成莫来石晶相, 使前驱体具有较好的结晶特性及致密化特性, 并获得微晶、均匀、致密的结构。采用单、双相莫来石前驱体混合的方法制备了一系列可纺复合莫来石前驱体, 通过XRD、DSC及SEM对其高温莫来石结晶行为进行了研究, 并据此确定了最佳的复合前驱体组成。研究发现, 含70wt%单相组分的复合前驱体具有最好的结晶及致密化特性, 与双相莫来石前驱体相比, 经1400℃热处理20 h后, 其晶核密度从8×10¹²/cm³提高到1×10¹⁵/cm³, 平均粒径从~360 nm降至~120 nm。

关键词: 莫来石纤维, 复合莫来石前驱体, 结晶行为

Abstract:

Glass free fine-grained microstructure is ideal for preparing mullite fibers with good high temperature mechanical properties. Single phase/diphasic mullite hybrid precursor was adopted to adjust crystalline microstructure of mullite fibers without adding any glass formers. The single phase precursor crystallized in situ to form mullite at 980℃ acting as seed crystals for diphasic components in hybrid precursors to induce the formation of mullite crystals at low temperatures. A series of spinnable hybrid mullite precursors were prepared by mixing single phase and diphasic mullite precursors, and their high temperature crystallization behaviors were investigated by XRD, DSC and SEM, with which optimum formulation of hybrid precursor was determined. The results reveal that hybrid precursor containing 70wt% single phase component has ideal crystalline properties and densification characteristics, with fine grain, uniform, and dense structure. Compared with the pure diphasic mullite precursor, the introduction of 70wt% single phase precursor resulted in an increase in apparent nucleation from 8×10¹²/cm³ to 1×10¹⁵/cm³, and a reduction in grain size from 360 nm to 120 nm after heat-treatment at 1400℃ for 20 h.

Key words: mullite fiber, hybrid mullite precursor, crystallization behavior

中图分类号:

TQ050

马西飞, 林根连, 康庄, 黄晓. 复合莫来石纤维前驱体结晶行为研究[J]. 无机材料学报, 2017, 32(7): 739-743.

MA Xi-Fei, LIN Gen-Lian, KANG Zhuang, HUANG Xiao. Crystallization Behavior of Hybrid Mullite Fiber Precursors[J]. Journal of Inorganic Materials, 2017, 32(7): 739-743.

图/表 4

表1 不同比例复合溶胶的组成

Table 1 Compositions of hybrid mullite precursors

Sample	Single phase gel/wt%	Diphasic gel/wt%
S	100	0
s9d1	90	10
s7d3	70	30
s5d5	50	50
s3d7	30	70
s1d9	10	90
D	0	100

图1 不同配比莫来石前驱体的DSC曲线

Fig. 1 DSC curves for hybrid mullite precursors

图2 不同配比莫来石前驱体经1100℃(a)、1200℃(b)和1300℃(c)热处理1 h产物的XRD图谱

Fig. 2 XRD patterns of the products from mullite precursors calcined at 1100℃(a), 1200℃(b) and 1300℃(c) for 1 h

图3 莫来石前驱体1400℃ 20 h热处理后扫描电镜图片及晶粒尺寸分布图

Fig. 3 High magnification SEM images and crystal size distribution statistical graph of mullite precursors calcined at 1400℃ for 20 h(a, c) Diphasic mullite precursor; (b, d) s7d3 hybrid mullite precursor

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复合莫来石纤维前驱体结晶行为研究

Crystallization Behavior of Hybrid Mullite Fiber Precursors

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